JP6009528B2 - Charging inlet - Google Patents

Description

  The technique disclosed by this specification is related with the inlet for charge.

  2. Description of the Related Art Conventionally, as a power receiving device mounted on an electric vehicle or a hybrid vehicle, for example, a device described in Japanese Patent Application Laid-Open No. 2013-175408 (Patent Document 1 below) is known. This power receiving device is a device into which a power supply plug on the charging facility side is inserted when charging a battery, and includes a box attached to the vehicle body, a body attached to the box, and an inlet assembled to the body. The power supply plug is inserted into the cylindrical portion of the body, and the body is integrally provided with a cable lock that prevents the power supply plug inserted into the cylindrical portion from being removed from the cylindrical portion. . The cable lock is pivotably supported by a lock lever. When charging is started, the actuator is driven, and the lock lever is fixed at the lock position so that the power plug is prevented from being pulled out. It has become.

JP 2013-175408 A

  However, in the power feeding device described above, a dedicated tool is required to attach the actuator to the cable lock, so that the installation work becomes complicated. Therefore, in order to facilitate the mounting work of the actuator, there is a method of separating the cable lock from the body, incorporating the actuator in the cable lock in advance, and easily attaching this cable lock to the body later using the cable lock pin. It has been devised. In this way, it is only necessary to insert the cable lock pin into the body, so that no special tool is required.

  The cable lock pin has, for example, a substantially gate shape when a pair of lock pins arranged opposite to each other are connected by a connecting portion. On the other hand, the body has a cable lock mounting portion to which the cable lock is attached. The cable lock mounting portion is engaged with the pair of lock holes into which the pair of lock pins are inserted, and the cable lock pin is engaged with the connecting portion. It is configured to have a pin lock for preventing the removal. Such a pin lock is configured to be cantilevered and can swing in a direction perpendicular to the insertion direction of the lock pin.

  However, in the method using the cable lock pin, when the vehicle vibrates, the vibration is transmitted to the cable lock mounting portion, the cable lock pin vibrates in a direction perpendicular to the lock pin insertion direction, and the cable lock pin contacts the pin lock. As a result, the pin lock also vibrates, and in the worst case, the pin lock may be damaged and the cable lock pin may come off from the cable lock mounting portion.

  The charging inlet disclosed in the present specification is a charging inlet having a cable lock mounting portion to which a cable lock is mounted, and the cable lock mounting portion includes a lock wall having a lock hole into which a cable lock pin is inserted. The pin lock that prevents the cable lock pin from coming off by engaging with the cable lock pin, and the cable lock pin does not contact the pin lock when the cable lock pin is displaced in a direction approaching the pin lock. It has the structure which has the displacement suppression part which suppresses the displacement of the cable lock pin by contact | abutting to the cable lock pin at a position.

  According to such a configuration, since the displacement of the cable lock pin is suppressed by the displacement suppressing portion and the cable lock pin does not contact the pin lock, even if the cable lock pin vibrates when the vehicle vibrates. Further, since the vibration of the cable lock pin is not directly transmitted to the pin lock, the pin lock can be prevented from being broken, and consequently the cable lock pin and the cable lock can be prevented from being detached from the cable lock mounting portion.

The charging inlet disclosed in the present specification may have the following configuration.
The cable lock pin as a whole has a substantially portal shape, and is configured to include a pair of lock pins arranged opposite to each other and a locked portion that connects these lock pins, and the lock pin is inserted into the lock hole, The locked part may be configured to be locked by the pin lock.
According to such a configuration, the posture of the locked portion is stabilized by inserting the pair of lock pins into the lock holes, respectively, and the locked portion is easily held by the lock portion.

The pin lock may include a bendable arm portion that can be bent and a lock portion that is provided at a tip portion of the arm portion and is engaged with the locked portion. .
If it does in this way, although the to-be-locked part does not contact an arm part, what is necessary is just to set the shape of a pin lock so that it may be latched by a lock part.

The displacement suppressing portion is configured to include a pair of support walls that support the locked portion, and in a state where the locked portion is supported by the support wall, between the opposing surfaces of the arm portion and the locked portion. It is good also as a structure by which the clearance gap is ensured.
According to such a structure, a to-be-locked part can be supported by a pair of support walls, and when a vibration is transmitted to a cable lock pin, it can prevent that a to-be-locked part contacts an arm part.

The displacement suppression part further includes a connecting wall that connects the pair of support walls, and the arm part is bent until it comes into contact with the connecting wall, and at least the lock part can be locked to the locked part. It was configured to return to a certain height.
According to such a configuration, even when an external force is applied to the arm portion and the arm portion is bent and plastically deformed until it contacts the connecting wall, the arm portion returns to a height at which the lock portion can be locked to the locked portion. Since the connecting portion is provided on the cable, it is possible to prevent the cable lock pin from coming off.

  According to the charging inlet disclosed in the present specification, it is possible to prevent the pin lock from being damaged, and thus to prevent the cable lock pin and the cable lock from being detached from the cable lock mounting portion.

Side view of the charging inlet in the embodiment AA line sectional view in FIG. Front view of housing BB sectional view in FIG. Side view of housing Top view of housing Top view of cable lock pin Sectional view showing the state where the cable lock pin is retained by the pin lock The principal part expanded sectional view in FIG. Cross-sectional view shown as a comparison to explain the effect of the displacement suppression unit

<Embodiment>
The embodiment will be described with reference to the drawings of FIGS. The charging inlet 10 in the present embodiment is a connection device mounted on an electric vehicle or a hybrid vehicle. When charging the battery, the charging inlet 10 is connected to a charging connector (not shown) from the front. As shown in FIG. 1, the charging inlet 10 includes a housing 20 having a cable lock mounting portion 30 to which the cable lock 50 is mounted from above, and a cable lock pin 40 inserted from the rear into the cable lock mounting portion 30. Configured.

  The housing 20 is made of synthetic resin, and as shown in FIG. 3, a connector fitting portion 21 into which a charging connector is fitted, and a mounting plate 22 provided so as to protrude from the outer peripheral surface of the connector fitting portion 21. I have. The connector fitting part 21 has an inner cylinder part 23 and an outer cylinder part 24 arranged around the inner cylinder part 23, and a hood part of the charging connector between the inner cylinder part 23 and the outer cylinder part 24. Has entered. In addition, a plurality of cavities 25 in which a plurality of terminals are accommodated are provided inside the inner cylinder portion 23.

  A fitting lock portion 26 is provided at the upper end portion of the inner cylinder portion 23. The fitting lock portion 26 is adapted to be engaged with a tip portion of a lock lever (not shown) provided on the charging connector. The charging connector is held in a state of being fitted to the connector fitting portion 21 by the front end portion of the lock lever being engaged with the fitting lock portion 26.

  As shown in FIG. 5, the connector fitting portion 21 is provided so as to penetrate the mounting plate 22 in the front-rear direction. A cable lock mounting portion 30 is provided at a portion of the connector fitting portion 21 that protrudes rearward from the mounting plate 22. The cable lock mounting portion 30 is located behind the fitting lock portion 26 and at the upper end portion of the connector fitting portion 21. As shown in FIG. 6, the cable lock mounting portion 30 has a box shape that opens upward, and a pair of left and right lock walls 31 that are opposed to each other, and a bottom wall 32 that is disposed between the lock walls 31. It has. The bottom wall 32 is provided with an insertion hole 33 through which the movable shaft of the actuator built in the cable lock 50 is inserted in the vertical direction.

  The cable lock 50 is a safety device for preventing the charging connector from being detached from the connector fitting portion 21 in order to prevent the charging connector from being illegally pulled out after the start of charging. The movable shaft of the actuator can be moved up and down between the unlocking allowable position and the unlocking prohibiting position while being passed through the insertion hole 33 of the cable lock mounting portion 30. In the unlocking prohibition position, the movable shaft of the actuator enters the connector fitting portion 21, and the distal end portion of the lock lever comes into contact with the lower end portion of the movable shaft of the actuator, thereby preventing the unlocking operation of the lock lever. On the other hand, in the unlocking prohibition position, the movable shaft of the actuator is retracted to a height position where the tip end portion of the lock lever does not come into contact, so that the unlocking operation of the lock lever is allowed.

  As shown in FIG. 4, a cylindrical portion 34 is provided at the hole edge portion of the insertion hole 33 so as to protrude upward. Therefore, the movable shaft of the actuator enters the connector fitting portion 21 through the inside of the cylindrical portion 34 and the insertion hole 33. Further, a pin lock 35 having a cantilever shape is provided on the outer surface of the cylindrical portion 34 so as to protrude rearward. The pin lock 35 includes an arm portion 35A that extends in the front-rear direction and can be bent in the vertical direction, and a lock portion 35B that protrudes upward from the distal end portion of the arm portion 35A. By bending the arm portion 35A, the lock portion 35B can be swingably displaced in the vertical direction. The upper surface of the arm portion 35A and the front surface of the lock portion 35B (a surface facing the cylindrical portion 34 and a locking surface with the locked portion 42 described below) are arranged substantially orthogonal to each other.

  As shown in FIG. 7, the cable lock pin 40 is formed into a substantially gate shape as a whole by bending a metal pin at a right angle at two locations. The cable lock pin 40 includes a pair of lock pins 41 arranged to face each other and a locked portion 42 that connects the lock pins 41. Note that the tip of the lock pin 41 is tapered.

  On the other hand, as shown in FIG. 2, the lock wall 31 has a concave shape, and a pair of front and rear lock holes 31 </ b> A through which the lock pins 41 are passed are provided on both front and rear sides of the recessed portion. The front end of the lock pin 41 is inserted into the front lock hole 31A, and the base end of the lock pin 41 is inserted into the rear lock hole 31B in a state of penetrating in the front-rear direction. The locked portion 42 is locked from behind by the lock portion 35 </ b> B of the pin lock 35. Thereby, the cable lock pin 40 is held by the cable lock mounting portion 30. The lock pin 41 is exposed at a recessed portion of the lock wall 31 (between the front lock hole 31 </ b> A and the rear lock hole 31 </ b> B), and this exposed portion does not pull out the cable lock 50 from the cable lock mounting portion 30. It is supposed to be a holding part.

  A pair of support walls 36 are provided on the left and right sides of the pin lock 35. These support walls 36 are arranged in an opposing state, and are provided in a manner of projecting rearward from the rear surface of each lock wall 31. As shown in FIG. 5, the support wall 36 is provided with a guide hole 37 having a shape opening rearward. The guide hole 37 is a hole for allowing the locked portion 42 of the cable lock pin 40 to enter from behind. Further, the upper and lower corners of the opening of the guide hole 37 are formed in a tapered shape so as to guide the locked part 42 into the guide hole 37. When the locked portion 42 is accommodated in the guide hole 37, the locked portion 42 is supported by the inner peripheral surface of the guide hole 37.

  When the locked portion 42 comes closest to the arm portion 35A of the pin lock 35, that is, when the locked portion 42 is supported by the lower surface of the inner peripheral surface of the guide hole 37, as shown in FIG. Is not in contact with the upper surface of the arm portion 35A, and a gap is secured between the opposing surfaces of the upper surface of the arm portion 35A and the lower end of the locked portion 42. Therefore, even when the cable lock pin 40 vibrates in the vertical direction due to the vibration of the vehicle, the locked portion 42 is held at a position where it does not contact the arm portion 35A, and the downward displacement of the locked portion 42 is suppressed. Therefore, it can be avoided that the vibration of the locked portion 42 is transmitted to the arm portion 35A and the pin lock 35 is damaged.

  On the other hand, when the support wall 36 is not provided, as shown in FIG. 10, the locked portion 42 is directly supported by the upper surface of the arm portion 2 of the charging inlet 1. For this reason, when the cable lock pin 40 vibrates in the vertical direction, the arm portion 2 also vibrates in the vertical direction. In the worst case, the arm portion 2 is damaged, and the cable lock pin 40 is detached from the cable lock mounting portion 3. May come off. In that respect, in the charging inlet 10 of the present embodiment, the pin lock 35 can be prevented from being damaged, so that the cable lock pin 40 is not likely to be detached from the cable lock mounting portion 30.

  The pair of support walls 36 are connected by a connecting wall 38. The connecting wall 38 is disposed substantially parallel below the arm portion 35A. The connecting wall 38 serves as an excessive deflection preventing wall that prevents the arm portion 35A from being damaged when it is excessively bent and deformed by an external force, and a role as a reinforcing wall that prevents each support wall 36 from falling down. And have. If the arm portion 35A is bent to such an extent that it comes into contact with the connecting wall 38, the arm portion 35A may be plastically deformed and may not return to the height position in the natural state. Even in such a case, the height position of the connecting wall 38 is set so that the arm portion 35A returns to a height position at which the lock portion 35B can be locked to the locked portion 42. Therefore, even if a situation occurs in which the arm portion 35 </ b> A is plastically deformed, the cable lock pin 40 is not detached from the cable lock mounting portion 30.

  The present embodiment is configured as described above, and its operation will be described subsequently. First, the lower end portion of the cable lock 50 is attached to the cable lock attachment portion 30 from above. Next, the cable lock pin 40 is attached to the cable lock attachment portion 30 from behind. At this time, each lock pin 41 enters the lock holes 31 </ b> A and 31 </ b> B of each lock wall 31 from behind. When the locked portion 42 reaches the lock portion 35B, the lock portion 35B is displaced downward by the locked portion 42, and the arm portion 35A is bent and deformed. As soon as the locked portion 42 gets over the locking portion 35B, the arm portion 35A is elastically restored, and the locking portion 35B is locked to the locked portion 42 from the rear. In this way, the cable lock pin 40 is held by the cable lock mounting portion 30, and the cable lock 50 is held by the cable lock mounting portion 30 by the cable lock pin 40.

  Next, when the charging connector is fitted to the connector fitting portion 21, the charging connector is held by the connector fitting portion 21 by the lock lever of the charging connector being locked to the fitting lock portion 26. When charging is started, the movable shaft of the actuator moves from the unlocking permission position to the unlocking prohibition position, and the unlocking operation of the lock lever is prohibited. Thereafter, when charging is stopped, the movable shaft of the actuator moves from the unlocking prohibition position to the unlocking permission position, and the unlocking operation of the lock lever is permitted. Therefore, the charging connector can be detached from the connector fitting portion 21.

  As described above, in the present embodiment, the displacement of the cable lock pin 40 is suppressed by the displacement suppression portion (support wall 36) and the cable lock pin 40 is not in contact with the pin lock 35. Therefore, the vehicle vibrates. In this case, even if the cable lock pin 40 vibrates, the vibration of the cable lock pin 40 is not directly transmitted to the pin lock 35, so that the pin lock 35 can be prevented from being damaged. As a result, the cable lock pin 40 and the cable lock 50 are connected to the cable. It is possible to prevent the lock mounting portion 30 from coming off.

The cable lock pin 40 has a substantially gate shape as a whole, and includes a pair of lock pins 41 arranged opposite to each other and a locked portion 42 that couples the lock pins 41, and the lock pin 41 is formed in the lock hole 31A. , 31B, and the locked portion 42 may be locked by the pin lock 35.
According to such a configuration, the posture of the locked portion 42 is stabilized by inserting the pair of lock pins 41 into the lock holes 31A and 31B, respectively, and the locked portion 42 is held in a locked state by the lock portion 35B. It becomes easy.

The pin lock 35 includes an arm portion 35A that extends in a cantilever manner and can be bent, and a lock portion 35B that is provided at the distal end portion of the arm portion 35A and engages with the locked portion 42. It is good.
In this case, the shape of the pin lock 35 may be set so that the locked portion 42 does not contact the arm portion 35A but is locked to the lock portion 35B.

The displacement suppressing portion is configured to include a pair of support walls 36 that support the locked portion 42, and in a state where the locked portion 42 is supported by the support wall 36, between the opposing surfaces of the arm portion 35 </ b> A and the locked portion 42. It is good also as a structure by which the clearance gap is ensured.
According to such a configuration, the locked portion 42 can be supported by the pair of support walls 36, and when the vibration is transmitted to the cable lock pin 40, the locked portion 42 can be prevented from coming into contact with the arm portion 35A. .

The displacement suppressing portion further includes a connecting wall 38 that connects the pair of support walls 36, and the arm portion 35 </ b> A bends until it contacts the connecting wall 38, and then at least the lock portion 35 </ b> B can be locked to the locked portion 42. It was configured to return to a certain height.
According to such a configuration, even when an external force is applied to the arm portion 35A and the arm portion 35A is bent and plastically deformed until it comes into contact with the connecting wall 38, the arm up to a height at which the lock portion 35B can be locked to the locked portion 42. Since the connecting portion 38 is provided so that the portion 35A returns, the cable lock pin 40 can be prevented from being detached.

<Other embodiments>
The technology disclosed in the present specification is not limited to the embodiments described with reference to the above description and drawings, and includes, for example, the following various aspects.
(1) Although the cable lock pin 40 having a substantially gate shape is illustrated in the above embodiment, the shape of the cable lock pin is not limited to the gate shape, and may be, for example, an L-shaped cable lock pin.

  (2) Although the pin lock 35 provided with the arm portion 35 </ b> A having a cantilever shape is illustrated in the above embodiment, a pin lock having an arm portion having a double-supported shape may be used.

  (3) Although the locked portion 42 is supported by the pair of support walls 36 in the above embodiment, the displacement of the locked portion 42 may be suppressed by reducing the lock hole.

  (4) Although the guide hole 37 is provided to guide the locked portion 42 in the above-described embodiment, at least a support surface that supports the locked portion 42 may be provided, and the guide hole 37 may not be configured.

  (5) Although the supporting walls 36 are reinforced by the connecting walls 38 in the above embodiment, the connecting walls 38 are not necessarily provided, and the supporting walls are configured as a part of a lock wall having sufficient strength. Also good.

  (6) In the above embodiment, the arm portion 35A is plastically deformed when the arm portion 35A is bent until it contacts the connecting wall 38. However, even if the arm portion is bent until it contacts the connecting wall, the arm portion is It is good also as what can prevent the excessive elastic deformation of an arm part, without plastically deforming.

DESCRIPTION OF SYMBOLS 10 ... Charging inlet 30 ... Cable lock mounting part 31 ... Lock wall 31A, 31B ... Lock hole 35 ... Pin lock 35A ... Arm part 35B ... Lock part 36 ... Support wall (displacement suppression part)
38 ... Connecting wall 40 ... Cable lock pin 41 ... Lock pin 42 ... Locked part 50 ... Cable lock

Claims (5)

A charging inlet having a cable lock mounting portion to which a cable lock is mounted,
The cable lock mounting portion includes a lock wall having a lock hole into which the cable lock pin is inserted, a pin lock that is secured to the cable lock pin to prevent the cable lock pin from coming off, and the cable lock pin is the pin lock. A displacement suppression unit that suppresses displacement of the cable lock pin toward the pin lock side by contacting the cable lock pin at a position where the cable lock pin does not contact the pin lock when displaced in the direction approaching Has a charging inlet.   The cable lock pin as a whole has a substantially portal shape, and is configured to include a pair of lock pins arranged opposite to each other and a locked portion that connects these lock pins, and the lock pin is inserted into the lock hole, The charging inlet according to claim 1, wherein the locked part is locked by the pin lock.   The said pin lock is comprised including the arm part which can be extended in a cantilever shape and bendable, and the lock part which is provided in the front-end | tip part of this arm part, and latches to the said to-be-locked part. The charging inlet described.   The displacement suppressing portion is configured to include a pair of support walls that support the locked portion, and in a state where the locked portion is supported by the support wall, between the opposing surfaces of the arm portion and the locked portion. The charging inlet according to claim 3, wherein a gap is secured.   The displacement suppression part further includes a connecting wall that connects the pair of support walls, and the arm part is bent until it comes into contact with the connecting wall, and at least the lock part can be locked to the locked part. The charging inlet according to claim 4, wherein the charging inlet returns to a proper height.

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